Steady-state heat transfer from vertical fins protruding upwards from horizontal bases

C. W. Leung; S. D. Probert

Steady-state heat transfer from vertical fins protruding upwards from horizontal bases

C. W. Leung
, S. D. Probert

School of Professional Education and Executive Development (SPEED)

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

The values of the geometric parameters corresponding to the optimal design of a finned heat-exchanger, so that it exhibits the maximum steady-state rate of heat-transfer performance in atmospheric air, have been identified. The most influential parameter is the separation between the parallel vertical fins. For heat-exchange base temperatures at up to 40 K above that of the ambient environment, the value of this optimal separation is approximately 10 mm. The corresponding approximate optimal values of the Duralumin fins' thickness and length are 2 mm and 250 mm respectively.

Original language	English
Pages (from-to)	94-101
Number of pages	8
Journal	Journal of the Institute of Energy
Volume	62
Issue number	451
Publication status	Published - Jun 1989

Cite this

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title = "Steady-state heat transfer from vertical fins protruding upwards from horizontal bases",

abstract = "The values of the geometric parameters corresponding to the optimal design of a finned heat-exchanger, so that it exhibits the maximum steady-state rate of heat-transfer performance in atmospheric air, have been identified. The most influential parameter is the separation between the parallel vertical fins. For heat-exchange base temperatures at up to 40 K above that of the ambient environment, the value of this optimal separation is approximately 10 mm. The corresponding approximate optimal values of the Duralumin fins' thickness and length are 2 mm and 250 mm respectively.",

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year = "1989",

month = jun,

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issn = "0144-2600",

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AU - Leung, C. W.

AU - Probert, S. D.

PY - 1989/6

Y1 - 1989/6

N2 - The values of the geometric parameters corresponding to the optimal design of a finned heat-exchanger, so that it exhibits the maximum steady-state rate of heat-transfer performance in atmospheric air, have been identified. The most influential parameter is the separation between the parallel vertical fins. For heat-exchange base temperatures at up to 40 K above that of the ambient environment, the value of this optimal separation is approximately 10 mm. The corresponding approximate optimal values of the Duralumin fins' thickness and length are 2 mm and 250 mm respectively.

AB - The values of the geometric parameters corresponding to the optimal design of a finned heat-exchanger, so that it exhibits the maximum steady-state rate of heat-transfer performance in atmospheric air, have been identified. The most influential parameter is the separation between the parallel vertical fins. For heat-exchange base temperatures at up to 40 K above that of the ambient environment, the value of this optimal separation is approximately 10 mm. The corresponding approximate optimal values of the Duralumin fins' thickness and length are 2 mm and 250 mm respectively.

UR - https://www.scopus.com/pages/publications/0024681393

M3 - Article

AN - SCOPUS:0024681393

SN - 0144-2600

VL - 62

SP - 94

EP - 101

JO - Journal of the Institute of Energy

JF - Journal of the Institute of Energy

IS - 451

ER -

Steady-state heat transfer from vertical fins protruding upwards from horizontal bases

Abstract

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